Research teams

DNA Repair and Genome Engineering

DRAGON 8 members 63 IJPB publications (2006-to date)

IJPB publications (2006-to date) [63]
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Garcias-Morales D, Palomar VM, Charlot F, Nogué F, Covarrubias AA, Reyes JL (2023). N6 -Methyladenosine modification of mRNA contributes to the transition from 2D to 3D growth in the moss Physcomitrium patens. Plant J, doi: 10.1111/tpj.16149. PubMed | DOI
Kuroiwa K, Danilo B, Perrot L, Thenault C, Veillet F, Delacote F, Duchateau F, Nogué F, Mazier M, Gallois JL (2023). An iterative gene-editing strategy broadens eIF4E1 genetic diversity in Solanum lycopersicum and generates resistance to multiple potyvirus isolates. Plant Biotechnol J, doi: 10.1111/pbi.14003. PubMed | DOI
Beraldo C, Guyon-Debast A, Alboresi A, Nogué F, Morosinotto T (2023). Functional analysis of PsbS transmembrane domains through base editing in Physcomitrium patens. Plant J, doi: 10.1111/tpj.16099. PubMed | DOI
Perroud PF, Guyon-Debast A, Veillet F, Kermarrec MP, Chauvin L, Chauvin JE, Gallois JL, Nogué F (2022). Prime Editing in the model plant Physcomitrium patens and its potential in the tetraploid potato. Plant Sci, 316:111162. PubMed | DOI
Brejšková L, Hála M, Rawat A, Soukupová H, Cvrková F, Charlot F, Nogué F, Haluška S, Žárský V (2021). SEC6 exocyst subunit contributes to multiple steps of growth and development of Physcomitrella (Physcomitrium patens). Plant J, 106(3):831-843. PubMed | DOI
Chauvin L, Sevestre F, Lukan T, Nogué F, Gallois JL, Chauvin JE, Veillet F (2021). Gene Editing in Potato Using CRISPR-Cas9 Technology. Methods Mol Biol, 2354:331-351. PubMed | DOI
Devos Y, Mumford JD, Bonsall MB, Camargo AM, Firbank LG, Glandorf DCM, Nogué F, Paraskevopoulos K, Wimmer EA (2021). Potential use of gene drive modified insects against disease vectors, agricultural pests and invasive species poses new challenges for risk assessment. Crit Rev Biotechnol, 1-17. PubMed | DOI
Fujita T, Nogué F, Rensing SA, Takezawa D, Vidali L (2021). Molecular biology of mosses. Plant Mol Biol, 107(4-5):209-211. PubMed | DOI
Genau AC, Li Z, Renzaglia KS, Fernandez Pozo N, Nogué F, Haas FB, Wilhelmsson PKI, Ullrich KK, Schreiber M, Meyberg R, Grosche C, Rensing SA (2021). HAG1 and SWI3A/B control of male germ line development in P. patens suggests conservation of epigenetic reproductive control across land plants. Plant Reprod, 34(2):149-173. PubMed | DOI
Guyon-Debast A, Alboresi A, Terret Z, Charlot F, Berthier F, Vendrell-Mir P, Casacuberta JM, Veillet F, Morosinotto T, Gallois JL, Nogué F (2021). A blueprint for gene function analysis through Base Editing in the model plant Physcomitrium (Physcomitrella) patens. New Phytol, 230(3):1258-1272. PubMed | DOI
Pauliši S, Qin W, Arora Verasztó H, Then C, Alary B, Nogué F, Tsiantis M, Hothorn M, Martínez-García JF (2021). Adjustment of the PIF7-HFR1 transcriptional module activity controls plant shade adaptation. EMBO J, 40(1):e104273. PubMed | DOI
Vendrell-Mir P, Perroud PF, Haas FB, Meyberg R, Charlot F, Rensing SA, Nogué F, Casacuberta JM (2021). A vertically transmitted amalgavirus is present in certain accessions of the bryophyte Physcomitrium patens. Plant J, 108(6):1786-1797. PubMed | DOI
Devos Y, Bonsall MB, Firbank LG, Mumford J, Nogué F, Wimmer EA (2020). Gene Drive-Modified Organisms: Developing Practical Risk Assessment Guidance. Trends Biotechnol, S0167-7799(20)30310-3. PubMed | DOI
Veillet F, Kermarrec MP, Chauvin L, Chauvin JE, Nogué F (2020). CRISPR-induced indels and base editing using the Staphylococcus aureus Cas9 in potato. PLoS One, 15(8):e0235942. PubMed | DOI
Veillet F, Perrot L, Guyon-Debast A, Kermarrec MP, Chauvin L, Chauvin JE, Gallois JL, Mazier M, Nogué F (2020). Expanding the CRISPR Toolbox in P. patens Using SpCas9-NG Variant and Application for Gene and Base Editing in Solanaceae Crops. Int J Mol Sci, 21:. PubMed | DOI
Bastet A, Zafirov D, Giovinazzo N, Guyon-Debast A, Nogué F, Robaglia C, Gallois JL (2019). Mimicking natural polymorphism in eIF4E by CRISPR-Cas9 base editing is associated with resistance to potyviruses. Plant Biotechnol J, 17:1736-1750. PubMed | DOI
Ermert AL, Nogué F, Stahl F, Gans T, Hughes J (2019). CRISPR/Cas9-Mediated Knockout of Physcomitrella patens Phytochromes. Methods Mol Biol, 2026:237-263. PubMed | DOI
Guzman-Zapata D, Sandoval-Vargas JM, Macedo-Osorio KS, Salgado-Manjarrez E, Castrejon-Flores JL, Oliver-Salvador MDC, Duran-Figueroa NV, Nogué F, Badillo-Corona JA (2019). Efficient Editing of the Nuclear APT Reporter Gene in Chlamydomonas reinhardtii via Expression of a CRISPR-Cas9 Module. Int J Mol Sci, 20:1247. PubMed | DOI
Nogué F, Vergne P, Chevre AM, Chauvin JE, Bouchabké-Coussa O, Déjardin A, Chevreau E, Hibrand-Saint Oyant L, Mazier M, Barret P, Guiderdoni E, Sallaud C, Foucrier S, Devaux P, Rogowsky PM (2019). Crop plants with improved culture and quality traits for food, feed and other uses. Transgenic Res, 28:65-73. PubMed | DOI
Danilo B, Perrot L, Botton E, Nogué F, Mazier M (2018). The DFR locus: A smart landing pad for targeted transgene insertion in tomato. PLoS One, 13:e0208395. PubMed | DOI
Perroud PF, Haas FB, Hiss M, Ullrich KK, Alboresi A, Amirebrahimi M, Barry K, Bassi R, Bonhomme S, Chen H, Coates JC, Fujita T, Guyon-Debast A, Lang D, Lin J, Lipzen A, Nogué F, Oliver MJ, Ponce De Leon I, Quatrano RS, Rameau C, Reiss B, Reski R, Ricca M, Saidi Y, Sun N, Szovenyi P, Sreedasyam A, Grimwood J, Stacey G, Schmutz J, Rensing SA (2018). The Physcomitrella patens gene atlas project: large-scale RNA-seq based expression data. Plant J, 95:168-182. PubMed | DOI
Wiedemann G, Van Gessel N, Kochl F, Hunn L, Schulze K, Maloukh L, Nogué F, Decker EL, Hartung F, Reski R (2018). RecQ Helicases Function in Development, DNA Repair, and Gene Targeting in Physcomitrella patens. Plant Cell, 30:717-736. PubMed | DOI
Von Schwartzenberg K, Lindner AC, Gruhn N, Simura J, Novák O, Strnad M, Gonneau M, Nogué F, Heyl A (2016). CHASE domain-containing receptors play an essential role in the cytokinin response of the moss Physcomitrella patens. J Exp Bot, 67:667-679. PubMed | DOI
Casacuberta JM, Devos Y, Du Jardin P, Ramon M, Vaucheret H, Nogué F (2015). Biotechnological uses of RNAi in plants: risk assessment considerations. Trends Biotechnol, 33:145-147. PubMed | DOI
Podevin N, Davies HV, Hartung F, Nogué F, Casacuberta JM (2013). Site-directed nucleases: a paradigm shift in predictable, knowledge-based plant breeding. Trends Biotechnol, 31:375-383. PubMed | DOI
Kamisugi Y, Schaefer DG, Kozak J, Charlot F, Vrielynck N, Hola M, Angelis KJ, Cuming AC, Nogué F (2012). MRE11 and RAD50, but not NBS1, are essential for gene targeting in the moss Physcomitrella patens. Nucleic Acids Res, 40:3496-3510. PubMed | DOI
Paul L, Angevin F, Collonnier C, Messean A (2012). Impact of gene stacking on gene flow: the case of maize. Transgenic Res, 21:243-256. PubMed | DOI
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